KR102205862B1 - Method for sharing color characteristics between multiple displays in a multiwall - Google Patents

Abstract

Disclosed is a method for sharing color characteristics between multiple displays in a multiwall. The method for sharing color characteristics between multiple displays in the present multiwall comprises the steps of: photographing, by a camera device, the multiwall; transmitting, by the camera device, the photographed image to a server; determining, by the server, a reference display in the photographed image; transmitting, by the server, a color characteristic correction signal to a display around the reference display; and correcting, by the surrounding display, the color characteristics based on the color characteristic correction signal. Accordingly, the color deviation is minimized in the multiwall composed of a plurality of displays, thereby enabling a more realistic and immersive large-screen viewing and content appreciation.

Description

Method for sharing color characteristics between multiple displays in a multiwall}

The present invention relates to a method of sharing color characteristics between a plurality of displays in a multi-wall, and more particularly, to make the color characteristics of a plurality of displays constituting a multi-wall the same, resulting in a sense of heterogeneity in viewing the entire content through a multi-wall. It relates to a method of sharing color characteristics between multiple displays in a multi-wall to prevent this from happening.

Multi-walls are used for various purposes, such as outdoor advertisements and contents that are given immersion and realism through a large screen. In such a multi-wall, a plurality of displays are integrated with each other, and one content is displayed on a single display through the integrated full screen, but is provided on a large screen.

Since the multi-wall is composed of a plurality of displays as described above, color deviation may occur between displays.

Of course, there may be parts that can be corrected using the color correction function built into the display, but because the physical characteristics between displays cannot be perfectly matched, even if the color characteristics are matched with the same numerical value, the color deviation is mutual It has an essential problem of having to make a difference.

As the human eye ages, the phenomenon in which the color deviation of each display constituting the multi-wall increases as time passes, and this color deviation is caused by users who enjoy a single content through a large screen. From the standpoint, it brings inconvenience that hinders the sense of immersion.

Korean Patent Laid-Open Patent No. 10-2006-0010268 (A method and apparatus for correcting image quality of an image display device)

The present invention has been conceived to solve the above problems, and an object of the present invention is to provide a method for sharing color characteristics between a plurality of displays in a multiwall in which color characteristic information is shared so that color characteristics among displays constituting a multi-wall match. In the offering.

A method for sharing color characteristics between a plurality of displays in a multi-wall according to an embodiment of the present invention for achieving the above object includes, by a camera device, photographing the multi-wall; Transmitting, by the camera device, the captured image to a server; Determining, by the server, a reference display from the captured image; Transmitting, by the server, a color characteristic correction signal to a peripheral display of the reference display; And correcting, by the peripheral display, a color characteristic based on the color characteristic correction signal.

Here, the camera device may photograph the multi-wall every preset time period and transmit the photographed image to the server.

In addition, the step of pre-storing, by the server, the color characteristics set in the multi-wall; further comprising, the step of determining the reference display, the server, the pre-stored color characteristics in the photographed image A display having adjacent color characteristics may be determined as the reference display.

In addition, the server, storing the unique information on the surrounding display; Calculating, by the server, a color characteristic correction value to which the peripheral display is to be corrected based on the reference display based on the captured image; And transmitting, by the server, a message obtained by matching the calculated correction value for each of the peripheral displays with the unique information for each of the peripheral displays.

In addition, the peripheral display, receiving the transmitted message; Extracting, by the peripheral display, a color characteristic correction value corresponding to its own information from the received message; And correcting, by the peripheral display, a color characteristic based on the extracted color characteristic correction value.

In addition, the color characteristic may include at least one of a white point, white luminance, black luminance, color temperature, and tone reproduction characteristic (gamma curve).

Here, in determining the reference display, the reference display may be determined differently for each of the white point, the white luminance, the black luminance, the color temperature, and the tone reproduction characteristic.

In addition, the camera device, the step of retaking the multi-wall; Transmitting, by the camera device, the retaken image to the server; Comparing, by the server, the photographed image and the retaken image, and recalculating a previously calculated color characteristic correction value; And transmitting, by the server, a message obtained by matching the recalculated correction value for each of the peripheral displays with unique information for each of the peripheral displays.

The calculating of the color characteristic correction value may include: extracting, by the server, a portion in which the same item is displayed across two adjacent displays in the multiwall based on the captured image; Calling, by the server, a color characteristic lookup table in which color characteristics are numerically displayed; And calculating, by the server, based on the color characteristic lookup table, a color characteristic correction value in which the color characteristic of one of the two adjacent displays is adjusted so that the level values in the color characteristic lookup table match between the two adjacent displays. Step; may include.

Here, the color characteristic lookup table may be provided for each of the white point, the white luminance, the black luminance, the color temperature, and the tone reproduction characteristic.

Accordingly, by minimizing color deviation in a multi-wall composed of a plurality of displays, it is possible to view a large screen with a more realistic and immersive feeling and to enjoy contents.

1 is a diagram for describing a system in which a method of sharing color characteristics between a plurality of displays in a multiwall is implemented.
2 is a flowchart illustrating a method of sharing color characteristics between a plurality of displays in a multiwall according to an embodiment of the present invention.
3 is a flowchart illustrating a method of recalibrating shared color characteristics.
4 is a flowchart provided to explain a process in which the server calculates a correction value.
5 is a diagram provided to explain an example of a method of calculating a correction value by a server.

Hereinafter, the present invention will be described in more detail with reference to the drawings. The embodiments introduced below are provided as examples in order to sufficiently convey the spirit of the present invention to those of ordinary skill in the art to which the present invention pertains. The present invention is not limited to the embodiments described below and may be embodied in other forms. In order to clearly describe the present invention, parts not related to the description will be omitted from the drawings.

1 is a diagram for describing a system in which a method of sharing color characteristics between a plurality of displays in a multiwall is implemented.

The system according to the present embodiment includes a multi-wall 100, a camera device 200 and a server 300.

The multiwall 100 is provided for the purpose of providing a user with one large screen as a whole by arranging a plurality of displays in a plurality of columns and a plurality of rows. Accordingly, users can view more realistic and realistic images on a large screen through the multiwall 100 in which a plurality of displays are integrated.

In order to provide a sense of immersion in the provided sensory media, the multi-wall 100 is created by combining displays of the same manufacturer and the production timing not significantly different.

The reason for configuring the multi-wall 100 by combining the same or similar displays as described above is to provide a sense of immersion in viewing a single image with a sense of unity as a whole by minimizing color deviation.

However, even if the multiwall 100 is composed of similar products, the physical characteristics between the displays cannot be perfectly matched with each other, so even if the color characteristics are set to match each other with the same numerical value, color deviation occurs. You have an essential problem that you have to do.

In this case, the administrator may adjust the setting values of the displays constituting the multiwall 100 one by one to have more improved color deviation.

However, since the multi-wall 100 is generally used outdoors for the purpose of providing a large screen, there is a limit to accessing the multi-wall 100 and changing the setting value whenever color deviation occurs. As the display ages over time, the problem accelerates.

To this end, in the method for sharing color characteristics between a plurality of displays in a multi-wall according to the present embodiment, the camera device 200 photographs a screen displayed on the multi-wall 100, and a photographed image photographed by the camera device 200 is captured. Based on the server 300 calculates a correction value based on the reference display and reflects it on other displays, it is possible to automatically match color characteristics between displays without the need for an administrator to manipulate each one.

2 is a flowchart illustrating a method of sharing color characteristics between a plurality of displays in a multiwall according to an embodiment of the present invention.

First, the server 300 is provided in a state in which unique information on a plurality of displays constituting the multiwall 100 is stored in advance (S110).

Thereafter, when the camera device 200 photographs the multiwall 100, the camera device 200 transmits the photographed image to the server 300 (S130), and the server 300 is based on the received image. A reference display is determined (S140).

Meanwhile, the server 300 may have pre-stored color characteristics set in the multiwall 100. Accordingly, the server 300 may analyze the captured image and select a display that expresses a color characteristic that is closest to a color characteristic that is previously stored and provided so that the display becomes a reference display.

For example, Multiwall (100) is the CIE (0.68,0.32), which is the darkest and pure red coordinates among the ranges conforming to the NTSC (National television system committee) standard, and CIE (0.21, 0.72), which is the darkest and purely green color. And arbitrary triangles composed of CIE (0.14, 0.80), which is the darkest and purest blue color, may be stored in advance as color characteristics and provided.

Of course, this is only an example for convenience of description, and the color characteristic may include at least one of a white point, white luminance, black luminance, color temperature, and tone reproduction characteristic (gamma curve).

The multi-wall 100 is a reference display based on a display in which the image in the image area corresponding to the display at the leftmost top of the photographed image matches the above-described triangle most or is determined to be the closest to the above-described triangle within two-dimensional coordinates. It can be decided by.

After the reference display among the plurality of displays constituting the multiwall 100 is determined, the server 300 calculates a correction value for correcting the color characteristics of the surrounding displays excluding the reference display based on the reference display (S150). ), a color characteristic correction message including the calculated correction value is transmitted to the multiwall 300 (S160).

The color characteristic correction message may be a message in which a correction value calculated for each peripheral display is matched with unique information for each peripheral display.

Accordingly, the multiwall 100 extracts a correction value matched for each unique information from the received color characteristic correction message (S170), and corrects the color characteristic according to the extracted correction value (S180).

Meanwhile, in determining the reference display, it has been said that the display closest to the pre-stored color characteristic is determined as the reference display. If the color characteristic is composed of several factors, the reference display may be determined differently for each factor. .

For example, if the color characteristic includes all of the white point, white luminance, black luminance, color temperature, and gamma curve, the reference display for white point and white luminance and the reference display for black luminance are different. It can be a display.

Accordingly, the color characteristic correction message may be generated differently for each factor constituting the color characteristic and transmitted using different displays as a reference display.

To this end, the camera device 200 does not generate one image through one photographing and transmits it to the server 300, but continuously, whenever the screen of the multiwall 100 is changed or at a preset time period. By taking a picture, generating an image and transmitting it to the server 300, the server 300 can refer to the determination of a reference display for a plurality of factors.

3 is a flowchart illustrating a method of recalibrating shared color characteristics.

As described above, after generating a correction value for each factor and transmitting it to the reference display, it is necessary to verify whether the correction is appropriate and that the multiwall 100 provides an image with a sense of unity.

In particular, since the color characteristics are corrected for each of a plurality of factors, there may be a case in which re-correction of the color characteristics may be necessary after correcting the color characteristics together.

To this end, in the method of sharing color characteristics between a plurality of displays in a multiwall according to the present embodiment, a procedure of re-correcting the shared color characteristics is performed.

To this end, the camera device 200 re-photographs the multiwall 100 (S210), and transmits the re-photographed image to the server 300 (S220).

At this time, the server 300 does not re-calculate the correction value using only the re-taken image, but compares the previously-taken image with the re-taken image (S230) and re-calculates the correction value (S240).

For example, a correction value was calculated to increase the level of white luminance by four steps from 1 to 5 based on the previously captured image, but it is analyzed that the level of white luminance has increased by only two steps in the retaken image. If so, the server 300 may increase the level of white luminance by four steps so that the level of white luminance actually displayed can be 5.

This recalculated correction value may also be recalculated for each peripheral display, and the recalculated correction value is transmitted to the multiwall 100 in a state matched with unique information for each peripheral display (S250).

The multiwall 100 extracts a correction value based on the unique information from the color characteristic correction message (S260), and corrects the color characteristic based on this (S270).

4 is a flowchart provided to explain a process of calculating a correction value by a server, and FIG. 5 is a diagram provided to explain an example of a method of calculating a correction value by the server.

In order to calculate the correction value, the server 300 checks whether there is an identical item in the multiwall 100 based on the captured image, and extracts a portion where the item is displayed across two adjacent displays (S310).

Such an item will be said to correspond to a person, an object, and a background displayed on the screen, and in the example of FIG. 5, a circle, a triangle, and a square may be considered to correspond to this.

Thereafter, the server 300 analyzes each color characteristic of the same item and calls a lookup table stored therein corresponding to the analyzed color characteristic (S320). For example, if the server 300 determines that 100-8 and 100-9 have the same square item in the multiwall 100 composed of displays of 100-1 to 100-9, these 100-8 times It analyzes the color characteristics of the display and displays 100-9 and calls the lookup table stored in the internally corresponding to the analyzed color characteristics.

Thereafter, the server 300 matches the color characteristic corresponding to the display number 100-8 and the color characteristic corresponding to the display number 100-9 in the called lookup table in the lookup table.

For example, the server 300 analyzes images corresponding to displays 100-8 and displays 100-9, and determines that the luminance of the displays 100-8 is at 3 levels through the lookup table. The luminance of the display can be understood as being at 5 levels.

Thereafter, the server 300 calculates a correction value for a portion showing a difference by two levels on the lookup table based on any one display (S340). Correction is performed such that the luminance level of the other display is corrected.

Although the embodiments of the present invention have been described with reference to the accompanying drawings, specific embodiments for effectively explaining the technical idea of the present invention are mainly illustrated and described. Therefore, the present invention is not limited only to the above-described embodiments, and any person of ordinary skill in the art to which the present invention belongs can perform various changes without departing from the gist of the technical idea of the invention described in the following claims. You can do it. In addition, the scope of the present invention is indicated by the claims described later rather than the detailed description above. In addition, all changes or modifications derived from the meaning and scope of the claims and their equivalent concepts should be interpreted as being included in the scope of the present invention.

100: multiwall 200: camera device
300: server

Claims (10)

In a method of sharing color characteristics between multiple displays in a multi-wall,
A step of photographing the multi-wall by a camera device;
Transmitting, by the camera device, the captured image to a server;
Determining, by the server, a reference display from the captured image;
Transmitting, by the server, a color characteristic correction signal to a peripheral display of the reference display; And
Comprising, by the peripheral display, correcting color characteristics based on the color characteristic correction signal,
The camera device,
Shooting the multi-wall every preset time period and transmitting the photographed image to the server,
A method of sharing color characteristics between a plurality of displays in the multi-wall,
Further comprising, by the server, pre-storing color characteristics set in the multiwall,
The step of determining the reference display,
The server determines a display having a color characteristic closest to the pre-stored color characteristic in the photographed image as the reference display,
A method of sharing color characteristics between a plurality of displays in the multi-wall,
Storing, by the server, unique information on the surrounding display;
Calculating, by the server, a color characteristic correction value to which the peripheral display is to be corrected based on the reference display based on the captured image; And
The server further comprises: transmitting, by the server, a message obtained by matching the correction value calculated for each peripheral display with the unique information for each of the peripheral displays;
A method of sharing color characteristics between a plurality of displays in the multi-wall,
Receiving, by the peripheral display, the transmitted message;
Extracting, by the peripheral display, a color characteristic correction value corresponding to its own information from the received message; And
Compensating, by the peripheral display, a color characteristic based on the extracted color characteristic correction value;
The color characteristics,
Including at least one of white point, white luminance, black luminance, color temperature, and tone reproduction characteristic (gamma curve),
The step of determining the reference display,
The reference display is determined differently for each of the white point, the white luminance, the black luminance, the color temperature, and the tone reproduction characteristic. delete delete delete delete delete delete The method of claim 1,
Retaking, by the camera device, the multi-wall;
Transmitting, by the camera device, the retaken image to the server;
Comparing, by the server, the photographed image and the retaken image, and recalculating a previously calculated color characteristic correction value; And
Transmitting, by the server, a message obtained by matching the recalculated correction value for each of the peripheral displays with the unique information for each of the peripheral displays; a method for sharing color characteristics between a plurality of displays in a multiwall, characterized in that . The method of claim 8,
The step of calculating the color characteristic correction value,
Extracting, by the server, a portion in which the same item is displayed across two adjacent displays in the multiwall based on the photographed image;
Calling, by the server, a color characteristic lookup table in which color characteristics are numerically displayed; And
Calculating, by the server, based on the color characteristic lookup table, a color characteristic correction value in which the color characteristic of one of the two adjacent displays is adjusted so that the level values in the color characteristic lookup table match between the two adjacent displays A method for sharing color characteristics between a plurality of displays in a multi-wall, comprising: a. The method of claim 9,
The color characteristic lookup table,
The white point, the white luminance, the black luminance, the color temperature, and the color characteristic sharing method between a plurality of displays in a multi-wall, characterized in that provided for each of the color temperature and the tone reproduction characteristic.

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